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Biology 212 Anatomy & Physiology I

Biology 212 Anatomy & Physiology I. Dr. Thompson Renal. Renal (Urinary) System Primary function : Disposes of while retaining . Organs of Renal System. Kidney Mass ~ 150g Size ~ 12 cm x 6 cm x 3 cm. Kidney Capsule : Cortex : Medulla : Pelvis :. Kidney:.

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Biology 212 Anatomy & Physiology I

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  1. Biology 212Anatomy & Physiology I Dr. Thompson Renal

  2. Renal (Urinary) System Primary function: Disposes of while retaining

  3. Organs of Renal System

  4. Kidney Mass ~ 150g Size ~ 12 cm x 6 cm x 3 cm

  5. Kidney Capsule: Cortex: Medulla: Pelvis:

  6. Kidney:

  7. This is where filtration will occur to begin formation of urine (more on that in a moment).

  8. Each renal artery divides into lobar arteries, interlobar arteries, arcuate arteries, interlobular arteries, afferent arterioles, glomeruli, efferent arterioles, peritubular capillaries Blood then flows into interlobular veins or arcuate veins, interlobar veins, and lobar veins to reach the renal vein which carries it to the inferior vena cava.

  9. Let’s go back to the glomerulus: This series of tubes is called a nephron.

  10. Each kidney contains ~ 1,000,000 nephrons Pattern of nephrons creates pattern of cortex and medulla:

  11. Functions of nephrons:

  12. Thus: Primary function of renal system: Maintains homeostasis by regulating concentrations of both water and solutes in the blood. Disposes of metabolic wastes excess water excess ions toxins while retaining proper amount of water proper concentrations of ions nutrients anything else needed in blood

  13. Two types of “pressure” are involved in these processes of filtration, reabsorption, and secretion. 1) 2)

  14. Two types of “pressure” are involved in these processes of filtration, reabsorption, and secretion. A.

  15. Two types of “pressure” are involved in these processes of filtration, reabsorption, and secretion. B.

  16. Filtration

  17. Structure of Glomerulus

  18. Filtration: a) b) c) Thus: only things smaller than ~ 7 nm can be filtered from blood into urine

  19. Filtration: In general:

  20. This fluid filtered out of the blood flows into

  21. As this filtrate passes through the nephron: a) Most solutes needed by body & most of the water are reabsorbed back into the blood in peritubular capillaries b) Excess solutes & excess water stay in urine c) Additional unwanted ions and molecules secreted into urine

  22. Key Feature of Kidney: Nephrons can concentrate urine by reabsorbing most of the water filtered out of the glomerulus Substance: Amount Amount Reabsorption filtered excreted ( % ) per day per day Water ( L ) 180 1.8 99 Sodium ( g ) 630 3.2 99.5 Glucose ( g ) 180 0 100 Urea ( g ) 54 30.0 44

  23. Key Feature of Kidney: (Nephrons concentrate urine by reabsorbing most of the water filtered out of glomerulus. This requires kidney to create a large concentration gradient in extracellular fluid of medulla, surrounding loops of Henle)

  24. Key Feature of Kidney: (Nephrons concentrate urine by reabsorbing most of the water filtered out of glomerulus. This requires kidney to create a large concentration gradient in extracellular fluid of medulla, surrounding loops of Henle) Low osmolarity (concentration of solutes) closer to cortex High osmolarity (concentration of solutes) deeper in medulla so that As newly formed urine passes through collecting, most of the water will diffuse out of collecting duct, into the extracellular fluid, from which it will diffuse back into blood of the peritubular capillaries, leaving high concentration of solutes in urine which reaches pelvis & leaves kidney

  25. Your text goes into great detail about how this happens (including these diagrams): You don’t need to understand details, but you should understand that it allows the final urine to be concentrated by pulling water out of it as it passes through the collecting duct. How much water gets pulled out can increase or decrease if body needs to retain or lose water. This is under control of

  26. (How much water gets pulled out can increase or decrease if body needs to retain or lose water. This is under control of antidiuretic hormone (ADH) produced by posterior pituitary). Increase in ADH Decrease in ADH

  27. Kidney also has important function in regulating systemic blood pressure.

  28. (Each nephron has a juxtaglomerular apparatus which detects blood pressure in afferent arteriole and secretes hormone renin. The lower the blood pressure in the afferent arteriole, the more renin the juxtaglomerular apparatus will secrete.)

  29. Urine passes from

  30. Urine leaving the pelvis enters

  31. Ureters:

  32. Ureter: Mucosa: Muscularis: Adventitia:

  33. Urinary Bladder:

  34. Urinary Bladder: Mucosa: Muscularis: Adventitia Serosa

  35. Urinary Bladder:

  36. Urethra: Adventitia: Muscularis: Mucosa:

  37. Urine not modified in ureter bladder urethra Thus: Also:

  38. Tonight: On yourself or another person, locate kidneys ureters bladder urethra

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